WO2009012948A1

WO2009012948A1 - Arrangement for destroying vermin

Info

Publication number: WO2009012948A1
Application number: PCT/EP2008/005932
Authority: WO
Inventors: Robert Schmitt
Original assignee: Robert Schmitt
Priority date: 2007-07-25
Filing date: 2008-07-19
Publication date: 2009-01-29
Also published as: EP2043430B1; US20100186285A1; DE502008001748D1; ZA201000223B; EP2043430A1; ATE487378T1; MX2010000812A; BRPI0814540A2; DE102008003394A1

Abstract

The invention relates to an arrangement (1) for destroying vermin (2). To ensure that the vermin are killed rapidly and reliably and are efficiently disposed of, the arrangement according to the invention comprises a device (3) for generating a flow of air in a conveying duct (4), wherein the conveying duct (4) is provided at one end (5) with a suction opening (6) for vermin (2); a filter element (7) which is arranged in the conveying duct (4), wherein the filter element (7) is designed to allow vermin (2) to be retained and to let air pass through, and wherein a discharge opening (8) for vermin (2) is present in the region of the filter element (7); and at least one radiation device and/or at least one heating device (9) for emitting radiation (10) which kills the vermin (2), wherein the radiation device and/or the heating device (9) is arranged between the suction opening (6) and the filter element (7) along the conveying duct (4) or in an adjoining region (11).

Description

Device for the destruction of vermin

The invention relates to a device for the destruction of vermin.

In many countries harassment by pests is commonplace. In particular, cockroaches or cockroaches are disturbing because they can sometimes transmit diseases or inflict stings on humans.

The destruction of vermin with poisons not only causes negative concomitant circumstances, since the poison can also get into organisms that should not be damaged. In addition, resistances have been observed that develop pests, so that the poison remains ineffective.

The killing of the vermin by mechanical means has both disadvantages and is otherwise very unhygienic.

The invention is therefore an object of the invention to provide a device for the destruction of vermin, especially cockroaches and cockroaches, which does not have the disadvantages mentioned. The vermin should be reliably killed and disposed of hygienically. Furthermore, the device should be characterized by an efficient operation. The solution to this problem by the invention is characterized in that the device comprises:

- A device for generating an air flow in one

Delivery channel, wherein the Förderkanai has at one end a Ansaugöfmung for vermin,

a filter element which is arranged in the conveying channel, wherein the filter element is designed to retain vermin and

Allow air to pass, and wherein in the region of the filter element, a discharge opening for vermin is present, and

at least one radiation device and / or at least one heating device for emitting a vermin killing the vermin

Radiation, wherein the radiation device and / or the heating device is arranged between the Ansaugöfmung and the filter element along the conveying channel or in a region adjacent thereto.

For the training of the radiation or heating device there are several options available that have proven themselves in the combination very well.

The radiation device is preferably an electromagnetic wave-generating element. It is particularly preferred to a microwave generating element. Alternatively or additionally, a red-light-emitting lamp can also be used as the radiation device.

The heater may be used alone or in combination with a radiation device. As a heater, an ohmic resistance can be used. This is designed according to an embodiment of the invention as a heating coil.

The device for generating an air flow is preferably a vacuum cleaner suction unit.

The filter element may be formed as a perforated plate. In this case, it has proven useful if it is provided that the perforated plate has bores which have a diameter between 1 mm and 4 mm. It is of course also possible that a fabric filter is used as the filter element, which is preferably replaceable.

In the area of the discharge opening for vermin a collecting container for vermin can be arranged.

Between the suction opening and the filter element, a conveying element can be arranged, which is designed to convey vermin to the dispensing opening. In this case, the conveying element may preferably be formed as a mechanical conveying element, wherein particularly preferably is intended to a screw conveyor, which is arranged in a housing. The screw conveyor is preferably made of ceramic material to easily withstand microwave radiation or heat radiation. The conveying element promotes according to a preferred embodiment of the invention, the vermin in a direction transverse to the flow direction of the air flow in the conveying channel.

The radiation device or heating device is preferably arranged around the Förderelεmcnt hemm. The Strahiungseinrichtung or heater can be arranged outside of the conveyor channel adjacent to this.

In the delivery channel, a blocking element can be arranged near the intake opening, which prevents the escape of pests from the delivery channel. Accordingly, it can further be provided that in the direction of the air flow in the end region of the conveying channel, a blocking element is arranged, which prevents the escape of pests from the conveying channel. The blocking element has, according to a preferred embodiment, a number of spring-biased fins, which together form a closure of the conveying channel.

The proposed device can be designed as a mobile unit. In this case, it is advantageous if you have a battery to supply the

Device for generating an air flow and the radiation device or heating device comprises. Furthermore, it has proven useful if it is provided that the device has straps for carrying on the back in the manner of a backpack.

Alternatively, the device may also be designed as a stationary unit.

Here, a special solution provides that the device is part of a built-in vacuum cleaner. The suction opening is preferably designed to connect a flexible vacuum cleaner hose, with which the vermin can be sucked.

With the proposed device, it is possible to destroy even larger amounts of vermin quickly and reliably. By building the device, the vermin can be hygienically sucked into the device and spent after killing in a receptacle.

The device can be used flexibly if it is designed as a mobile unit. But it is also possible to provide the device as a stationary unit, including the device can be integrated into a central vacuum system of a building.

It is essential that the device comprises at least one radiation device and / or at least one heating device, with which radiation can be generated in the broadest sense and directed to the vermin. This radiation may be microwave radiation or thermal radiation whose intensity is chosen in each case so that a rapid killing of the vermin takes place.

In the drawing exemplary embodiments of the invention are shown. Show it:

Fig. 1 is a sectional view of an apparatus for the destruction of pests, the required parts are shown in part only very schematically, and Fig. 2 is a sectional view of an alternative to Fig. 1 apparatus having a conveying element for conveying vermin.

In Fig. 1, a device 1 for the destruction of vermin 2 can be seen, the vermin is shown only very schematically. These are mostly cockroaches or cockroaches, which should be destroyed in a simple and efficient way. Typical sizes and weights of cockroaches are 10 to 50 mm in length and up to 5 grams in weight.

In the exemplary embodiment, the device 1 has a longitudinally extending delivery channel 4. However, it can also be provided that the delivery channel 4 is curved or has a meandering course. At a suitable location, a device 3 for generating an air flow is arranged on or in the conveying channel 4. In this device 3 is a suction unit of a vacuum cleaner, as it is known as such. In the present case, the device 3 is positioned at the rear end 17 of the conveyor channel 4. In principle, the device 3 can be positioned at any point in the conveyor channel 4. The air flow generated by the operation of the device 3 is schematically indicated by arrows.

At the front end 5 of the conveyor channel is a suction port 6, is sucked through the air, being entrained by the air flow vermin 2. In the delivery channel 4 is a filter element 7, which may consist of a perforated plate in the simplest case, are incorporated into the holes with a diameter of about 2 to 4 mm. The diameter of the holes is chosen so that the air can easily pass through the filter element 7, but that the vermin 2 is reliably retained. The filter element can of course also consist of classic filter material, which is arranged interchangeable in the conveyor channel 4. The replacement of the filter material is for hygiene.

Near the filter element 7 and, in particular, under the same, a discharge opening 8 for vermin 2 is arranged in the delivery channel 4. Below the dispensing opening 8, a collecting container 12 is arranged, in which vermin 2 can be received.

So that vermin 2, which is sucked into the delivery channel 4, can escape again from the delivery channel 4 in any case, blocking elements 15 and 16 are provided. It is in the exemplary embodiment elements in the manner of a trap. There are a number of fins 18 are provided, which are arranged around the circumference of the preferably circular cross-section conveyor channel 4, wherein the fins 18 are biased by a spring 19 so that in the unloaded state, the blocking element 15, 16 closes the conveyor channel 4. However, air can nevertheless pass through the blocking element 15, 16. The design of the spring 19 is chosen so that in the event that vermin 2 is sucked in, the lamellae 18 resiliently spring open and the vermin 2 allow entry into the delivery channel 4.

An important component of the device is a radiation device or heating device 9, with which a radiation (in the given case, a thermal radiation) 10 can be emitted, which kills the vermin 2.

The radiation device 9 is preferably a microwave source. Microwave generating elements are well known in the art, e.g. B. from microwave ovens. In the case of the use of a heater 9 is usually intended to a heating coil, which is heated according to resistance, so that the heat radiation kills the vermin quickly.

The radiation device or heating device 9 is arranged in the exemplary embodiment according to FIG. 1 between the suction opening 6 and the filter element 7 in the region of the conveying channel 4. In order for the vermin to pass through the suction port 6 and before being filtered out by the filter element 7, the vermin must pass through the radiation device or heating device 9.

During operation of the device 1, the radiation device 9 produces such a strong radiation field, in particular a microwave field, that the vermin is reliably killed when it passes the radiation device 9. Accordingly, the heater generates a heat radiation, which also ensures rapid killing of the vermin.

In the exemplary embodiment according to FIG. 2, a somewhat different configuration can be recognized. In this solution is a somewhat more compact design of the device 1. At the conveyor channel 4 here adjacent to a region 11 to the conveyor channel 4, wherein the channel portion of the region 11 extends approximately perpendicular to the longitudinal axis of the conveyor channel 4.

In addition to the embodiment according to FIG. 1, a mechanical conveying element 13 in the form of a screw 13 is provided in the solution according to FIG. 2. The longitudinal axis of the screw 13 is in the present case perpendicular to the longitudinal axis of the conveying channel 4. The worm 13 can be rotationally driven by a motor 20. When propelled, it promotes vermin 2 in FIG. 2 down to the dispensing opening 8, from where the vermin 2 enters the collecting container 12.

The worm 13 is arranged in a housing 14. Both the conveyor channel 4 and the housing 14 have a circular shape in cross section. Accordingly, the filter element 7 is arcuately formed around the worm 13 bent around. This has the consequence that the screw 13 during operation reliably pests from the filter element 7 down calls that is still in the air flow in front of the filter element 7.

The radiation device or heating device 9 is arranged here in the adjacent region 11, so that the vermin 2 passes only when conveying down through the screw 13 the area in which it is exposed to lethal radiation.

It is advantageous that the passing speed of the vermin 2 is predetermined when the radiation device or heating device 9 passes through the screw rotation. This can ensure that the radiation is sufficient in any case to kill the vermin.

It is not shown in detail that the entire device 1 must of course be shielded so that radiation - no matter whether microwave radiation or heat radiation - that emits the radiation device or heating device 9, can not escape to the outside. Corresponding solutions are known in the art, for example from the microwave oven technology; In that regard, reference is made to this. Otherwise, a thermal insulation is provided to ensure in particular when using a heater that the device is not too hot on its outer surface. The delivery channel 4 is preferably made of metallic material for this purpose, so that electromagnetic waves can not leave the interior of the channel. The shield also serve the blocking elements 15, 16, which retain radiation in the interior of the channel 4 due to their described embodiment.

The choice of the field strength of the electromagnetic field of the radiation device, in particular the field strength of the microwave radiation, or the heating power of the heater 9 is adjusted so that the vermin 2 can be heated in a very short time and thus killed.

The entire device 1 can be carried in a backpack-like manner, for which purpose corresponding straps are placed on the device, and the device is then placed in a corresponding portable housing.

To the suction port 6, a flexible vacuum cleaner tube is then coupled in a known manner, so that the vermin can be easily absorbed.

LIST OF REFERENCE NUMBERS

1 device

2 vermin

3 device for generating an air flow

4 conveyor channel

5 End of the delivery channel

6 intake opening

7 filter element

8 discharge opening

9 Radiation device / heater

(Microwave source / heating element)

10 radiation

11 adjacent to the conveyor channel area

12 collection containers

13 conveying element (screw conveyor)

14 housing

15 blocking element

16 blocking element

17 End of the delivery channel

18 lamella

19 spring 0 engine

Claims

claims;

Apparatus (1) for destroying vermin (2), comprising:

a device (3) for generating an air flow in a conveying channel (4), wherein the conveying channel (4) at one end (5) has a suction opening (6) for vermin (2),

a filter element (7) arranged in the conveying channel (4), wherein the filter element (7) is designed to retain pests (2) and allow air to pass through, and wherein in the region of the filter element (7) a discharge opening (8 ) for vermin (2), and

at least one radiation device and / or at least one heating device (9) for emitting a radiation (10) which kills the vermin (2), the radiation device and / or the heating device (9) running between the suction opening (6) and the filter element (7) of the conveying channel (4) or in a region adjacent thereto (1 1) is arranged.

2. Apparatus according to claim 1, characterized in that the radiation device (9) is an electromagnetic wave generating element.

3. A device according to claim 2, characterized in that the radiation device (9) is a microwave generating element.

4. Apparatus according to claim 1, characterized in that the radiation device (9) is a red light emitting lamp.

5. Device according to one of claims 1 to 4, characterized in that the heating device (9) is an ohmic resistance.

6. Apparatus according to claim 5, characterized in that the ohmic resistor is designed as a heating coil.

7. Device according to one of claims 1 to 6, characterized in that the means (3) for generating an air flow is a vacuum cleaner suction unit.

8. Device according to one of claims 1 to 7, characterized in that the filter element (7) is designed as a perforated plate.

9. Apparatus according to claim 8, characterized in that the perforated plate has bores which have a diameter between 1 mm and 4 mm.

10. Device according to one of claims 1 to 9, characterized in that in the region of the discharge opening (8) for vermin (2) a collecting container (12) for vermin (2) is arranged.

11. Device according to one of claims 1 to 10, characterized in that between the suction port (6) and the filter element (7) a conveying element (13) is arranged, which is designed for the promotion of vermin (2) to the discharge opening (8) ,

12. The device according to claim 11, characterized in that the conveying element (13) is designed as a mechanical conveying element.

13. The apparatus according to claim 12, characterized in that the conveying element (13) is a screw conveyor, which is arranged in a housing (14).

14. The apparatus according to claim 12, characterized in that the screw conveyor consists of ceramic material.

15. The apparatus according to claim 12, characterized in that the screw conveyor consists of glass.

16. Device according to one of claims 1 1 to 15, characterized in that the conveying element (13) conveys the vermin (2) in a direction transverse to the flow direction of the air flow in the conveying channel (4).

17. Device according to one of claims 1 1 to 16, characterized in that the radiation device and / or the heating device (9) is arranged around the conveying element (13) around.

18. The apparatus according to claim 17, characterized in that the radiation device and / or the heating device (9) outside of the conveying channel (4) is arranged adjacent to this.

19. Device according to one of claims 1 to 18, characterized in that in the conveying channel (4) near the suction opening (6), a blocking element (15) is arranged, which prevents the escape of vermin (2) from the conveying channel (4).

20. Device according to one of claims 1 to 19, characterized in that in the direction of the air flow in the end region of the conveying channel (4) a blocking element (16) is arranged, which prevents the escape of vermin (2) from the conveying channel (4).

21. The device according to claim 19 or 20, characterized in that the blocking element (15, 16) has a number of spring-loaded fins, which together form a closure of the conveying channel (4).

22. Device according to one of claims 1 to 21, characterized in that it is designed as a mobile unit.

23. The device according to claim 22, characterized in that it comprises a battery for supplying the device (3) for generating an air flow and the radiation device and / or the heating device (9).

24. The device according to claim 22 or 23, characterized in that it comprises straps for carrying on the back in the manner of a backpack.

25. Device according to one of claims 1 to 21, characterized in that it is designed as a stationary unit.

26. The device according to claim 25, characterized in that it is part of a built-in vacuum cleaner.

27. Device according to one of claims 1 to 26, characterized in that the suction opening (6) is designed for connection of a flexible vacuum cleaner hose.